EC:3.6.3.1 - FACTA Search

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Query: EC:3.6.3.1 (Mg2+-ATPase)
1,484 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Myosin was purified from bovine erythrocytes by chromatography on DEAE-cellulose, Sepharose CL-4B, hydroxylapatite, and DEAE-5PW. The yield was about 200 micrograms/L of packed cells. From SDS-polyacrylamide gels, the purity was estimated to be greater than 95%. The bovine erythrocyte myosin is composed of heavy chains of 200 kDa and light chains of 20 and 17 kDa, in a molar stoichiometry of 1. Myosin was also purified from human erythrocytes by the same method. The molecular weights of two light chains were 26K and 19.5K which confirmed the earlier reports [Fowler, V. M., Davis, J. Q., & Bennet, V. (1985) J. Cell Biol. 100, 47-55; Wong, A. J., Kiehart, D. P., & Pollard, T.D. (1985) J. Biol. Chem. 260, 46-49]. Phosphorylation by gizzard myosin light chain kinase, to a level of 1 mol of phosphate/mol of 20-kDa light chain, increased actin-activated ATPase, and the extent of activation was dependent on the MgCl2 concentration. Both Ca2+-ATPase and Mg2+-ATPase activities were dependent on KCl concentration and markedly decreased below 0.3 M KCl. Mg2+-ATPase of phosphorylated myosin, while more resistant to decreasing ionic strength, was also decreased below 0.2 M KCl. These results are similar to those obtained with smooth muscle myosin and suggest that the 10S-6S transition occurs. In confirmation of this, gel filtration, viscosity, and electron microscopy (rotary shadowing) show that erythrocyte myosin forms extended and folded conformations in high and low salt, respectively. It is proposed that each conformation is characterized by distinct enzymatic properties.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Correlation of enzymatic properties and conformation of bovine erythrocyte myosin. 254 59

Transverse tubules (t-tubules) were prepared from muscle by dissociation of intact triads during centrifugation in ion-free sucrose gradients. They were further purified by the removal of contaminating sarcoplasmic reticulum after loading with calcium phosphate. Purification was accompanied by enrichment in markers specific for t-tubules, e.g., nitrendipine binding sites. According to gel electrophoresis the purified t-tubules contained three major protein bands of 104, 70, and 30 kDa. When solubilized with detergents there was a two- to threefold increase in Mg2+-ATPase activity, and a corresponding increase in the 30-kDa protein band. The 104-kDa protein was shown to be a (Na+ + K+)-ATPase because of its phosphorylation by [gamma-32P]ATP in the presence of sodium ions. The orientation of the t-tubule membrane was predominantly inside-out.
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PMID:Biochemical properties of purified transverse tubules isolated from skeletal muscle triads. 282 22

The phospholipid requirement for Ca2+-stimulated, Mg2+-dependent ATP hydrolysis (Ca2+/Mg2+-ATPase) and Mg2+-stimulated ATP hydrolysis (Mg2+-ATPase) in rat brain synaptosomal membranes was studied employing partial delipidation of the membranes with phospholipase A2 (Hog pancreas), phospholipase C (Bacillus cereus) and phospholipase D (cabbage). Treatment with phospholipase A2 caused an increase in the activities of both Ca2+/Mg2+-ATPase and Mg2+-ATPase whereas with phospholipase C treatment both the enzyme activities were inhibited. Phospholipase D treatment had no effect on Ca2+/Mg2+-ATPase but Mg2+-ATPase activity was inhibited. Inhibition of Mg2+-ATPase activity after phospholipase C treatment was relieved with the addition of phosphatidylinositol-4,5-bisphosphate (PIP2) and to a lesser extent with phosphatidylinositol-4-phosphate (PIP) and phosphatidylcholine (PC). Phosphatidylserine (PS), phosphatidic acid (PA), PIP and PIP2 brought about the reactivation of Ca2+/Mg2+-ATPase. Phosphatidylinositol (PI) and PA inhibited Mg2+-ATPase activity. Kms for Ca2+ (0.47 microM) and Mg2+ (60 microM) of the enzyme were found to be unaffected after treatment with the phospholipases.
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PMID:Phospholipid requirement of Ca2+-stimulated, Mg2+-dependent ATP hydrolysis in rat brain synaptic membranes. 294 70

Fodrin, a non-erythrocyte spectrin-like protein, has been purified from bovine brain and found to be phosphorylated by the cyclic AMP-dependent protein kinase with a maximal stoichiometry of 1.02 +/- 0.06 mol of phosphate/mol of fodrin dimer (n = 4). This phosphorylation was not affected by the presence of actin and calmodulin. The phosphorylation of fodrin was found to occur exclusively at serine residues on the beta subunit. Two-dimensional thin layer electrophoresis and chromatography of a tryptic digest of phosphorylated fodrin showed one major phosphopeptide and a few minor ones. We have previously reported that nonphosphorylated fodrin is capable of stimulating the smooth muscle actomyosin Mg2+-ATPase by 50-70% under a well-defined set of conditions such as a critical fodrin concentration and an optimal preincubation time (Wang, C., Ngai, P.K., Walsh, M.P., and Wang, J.H. (1987) Biochemistry 24, 1110-1117). We now report that phosphorylation of fodrin completely eliminates this stimulatory effect. However, phosphorylation of fodrin was able to compete with nonphosphorylated fodrin to result in the abolition of the stimulatory effect. Similarly, nonphosphorylated fodrin could overcome the inhibitory effect created by phosphorylated fodrin. The present results support the suggestion that the stimulation of the smooth muscle actomyosin Mg2+-ATPase by fodrin may be a physiological phenomenon and cyclic AMP may serve as a regulator for this effect.
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PMID:Effect of phosphorylation by cyclic AMP-dependent protein kinase on the smooth muscle actomyosin Mg2+-ATPase stimulatory activity of fodrin. 295 61

Purified bovine brain myosin contained approximately 1 and 3 mol of protein-bound phosphate/mol myosin in the light chains and heavy chains, respectively. Large portions of this light chain- and heavy chain-bound phosphate (about 0.8 and 2.4 mol, respectively) were removed by incubation with a brain phosphoprotein phosphatase and potato acid phosphatase, respectively. Upon phosphorylation of the dephosphorylated brain myosin with myosin light chain kinase and casein kinase II, about 1.6 and 3.0 mol of phosphate was incorporated into the light chains and heavy chains, respectively, while much lower levels of phosphate were incorporated into the non-dephosphorylated brain myosin under the same conditions. The actin-activated Mg2+-ATPase activity of brain myosin rephosphorylated with myosin light chain kinase was about twice as high as that of dephosphorylated brain myosin (about 30 and 15 nmol phosphate/mg/min, respectively). On the other hand, whereas the rephosphorylated brain myosin superprecipitated rapidly with F-actin, the rate of superprecipitation of the dephosphorylated brain myosin was extremely low. Under appropriate conditions, a loose network of tiny superprecipitates, which formed initially throughout the solution, contracted to form eventually a large and dense particle. These results indicate that phosphorylation of the light chains of brain myosin is a prerequisite for the contraction of brain actomyosin. The role of phosphorylation of the heavy chains by casein kinase II remains to be elucidated.
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PMID:The effects of phosphorylation and dephosphorylation of brain myosin on its actin-activated Mg2+-ATPase and contractile activities. 296 85

Evidence is presented for the presence of both diethylstilbestrol (DES)-sensitive and DES-insensitive Mg2+-ATPase activities in plasma membrane enriched fractions of Dictyostelium discoideum. When removed from the membrane, the DES-sensitive activity is markedly less stable than the DES-insensitive activity, and the two activities display a number of quite distinct properties. The DES-sensitive enzyme has a decided preference for Mg2+ over Ca2+, displays saturation kinetics in response to ATP as substrate (Km = 0.2 mM) and has a narrow pH optimum range. In contrast, the DES-insensitive activity is stimulated equally by Mg2+ or Ca2+, is not saturable by ATP within the mM concentration range and has a much broader pH optimum. The DES-insensitive activity has been purified extensively. The purified enzyme is inhibited by vanadate and fluoride, but is insensitive to N,N'-dicyclohexylcarbodiimide (DCCD), N-ethylmaleimide and thimerosal. In the absence of divalent cations, the enzyme displays a sigmoidal activity curve in response to substrate concentration, which is abolished by addition of either Mg2+ or Ca2+, suggesting a binding site for a divalent cation and a positive cooperative interaction. The enzyme is capable of hydrolyzing other nucleotide triphosphates and ADP, but is without activity on AMP, p-nitrophenyl phosphate and pyrophosphate. The enzyme has an apparent molecular weight of approximately 64,000.
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PMID:Purification and characterization of a Ca2+- or Mg2+-stimulated ATPase from plasma membrane enriched fractions of Dictyostelium discoideum. 297 51

A Dictyostelium discoideum myosin heavy chain kinase has been purified 14,000-fold to near homogeneity. The enzyme has a Mr = 130,000 as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and greater than 700,000 as determined by gel filtration on Bio-Gel A-1.5m. The enzyme has a specific activity of 1 mumol/min X mg when assayed at a Dictyostelium myosin concentration of 0.3 mg/ml. A maximum of 2 mol of phosphate/mol of myosin is incorporated by the kinase, and the phosphorylated amino acid is threonine. Phosphate is incorporated only into the myosin heavy chains, not into the light chains. The actin-activated Mg2+-ATPase of Dictyostelium myosin is inhibited 70-80% following maximal phosphorylation with the kinase. The myosin heavy chain kinase requires 1-2 mM Mg2+ for activity and is most active at pH 7.0-7.5. The activity of the enzyme is not significantly altered by the presence of Ca2+, Ca2+ and calmodulin, EGTA, cAMP, or cGMP. When incubated with Mg2+ and ATP, phosphate is incorporated into the myosin heavy chain kinase, perhaps by autophosphorylation.
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PMID:Purification and characterization of a myosin heavy chain kinase from Dictyostelium discoideum. 302 76

We have partially purified myosin light chain kinase (MLCK) and myosin light chain phosphatase (MLCP) from Dictyostelium discoideum. MLCK was purified 4,700-fold with a yield of approximately 1 mg from 350 g of cells. The enzyme is very acidic as suggested by its tight binding to DEAE. Dictyostelium MLCK has an apparent native molecular mass on HPLC G3000SW of approximately 30,000 D. Mg2+ is required for enzyme activity. Ca2+ inhibits activity and this inhibition is not relieved by calmodulin. cAMP or cGMP have no effect on enzyme activity. Dictyostelium MLCK is very specific for the 18,000-D light chain of Dictyostelium myosin and does not phosphorylate the light chain of several other myosins tested. Myosin purified from log-phase amebas of Dictyostelium has approximately 0.3 mol Pi/mol 18,000-D light chain as assayed by glycerol-urea gel electrophoresis. Dictyostelium MLCK can phosphorylate this myosin to a stoichiometry approaching 1 mol Pi/mol 18,000-D light chain. MLCP, which was partially purified, selectively removes phosphate from the 18,000-D light chain but not from the heavy chain of Dictyostelium myosin. Phosphatase-treated Dictyostelium myosin has less than or equal to 0.01 mol Pi/mol 18,000-D light chain. Phosphatase-treated myosin could be rephosphorylated to greater than or equal to 0.96 mol Pi/mol 18,000-D light chain by incubation with MLCK and ATP. We found myosin thick filament assembly to be independent of the extent of 18,000-D light-chain phosphorylation when measured as a function of ionic strength. However, actin-activated Mg2+-ATPase activity of Dictyostelium myosin was found to be directly related to the extent of phosphorylation of the 18,000-D light chain. MLCK-treated myosin moved in an in vitro motility assay (Sheetz, M. P., and J. A. Spudich, 1983, Nature (Lond.), 305:31-35) at approximately 1.4 micron/s whereas phosphatase-treated myosin moved only slowly or not at all. The effects of phosphatase treatment on the movement were fully reversed by subsequent treatment with MLCK.
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PMID:Myosin light chain kinase and myosin light chain phosphatase from Dictyostelium: effects of reversible phosphorylation on myosin structure and function. 303 87

Renal proximal tubule cells adapt to dietary phosphate (Pi) restriction by increasing Pi transport independent of parathyroid hormone, vitamin D metabolites, or serum Ca2+. To determine the underlying cellular mechanism(s), brush border (BBM) and basolateral membranes (BLM) were isolated from growing male rats fed a synthetic diet containing variable levels of Pi (0.1-1.4%). Dietary Pi restriction was without effect on either BBM or BLM total lipid phosphorus, individual phospholipid species, or BLM Na+-K+-ATPase specific activity. However, dietary Pi restriction (0.1 vs. 1.0%) did cause a significant reduction in BBM but not BLM cholesterol (0.45 vs. 0.41 mumol/mg protein). Brush border membrane cholesterol was inversely correlated with the tubular reabsorption of Pi (r = 0.77, P less than 0.01) over a broad range (99.9-46.2%). Arrhenius analysis of two intrinsic BBM enzymes revealed a significant reduction in the breakpoint temperature for alkaline phosphatase but no change for Mg2+-ATPase. Fluorescence polarization studies showed increased BBM inner core fluidity due to an alteration in neutral lipids but not phospholipid, fatty acid, or protein membrane components. These data demonstrate that the BBM can regulate its cholesterol content independent of the BLM. Furthermore, they suggest that adaptation to dietary Pi restriction involves a reduction in BBM cholesterol, which may be mediated by an increase in membrane fluidity.
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PMID:Renal apical membrane cholesterol and fluidity in regulation of phosphate transport. 316 Feb 47

The in vitro effects of plictran on oligomycin-sensitive Mg2+-ATPase and Ca2+-ATPase activities in beef heart mitochondria were studied. Beef heart mitochondrial fractions were prepared by the conventional centrifugation method. ATPase activities were measured by determining the inorganic phosphate released by the hydrolysis of ATP. Plictran inhibited both oligomycin-sensitive (o.s.) Mg2+-ATPase and Ca2+ ATPase activities at nanomolar concentrations. However, plictran did not affect the oligomycin-insensitive (o.i.) Mg2+-ATPase activity at any concentration studied. Substrate activation kinetics revealed that plictran inhibited o.s. Mg2+-ATPase uncompetitively and Ca2+-ATPase non-competitively. These results clearly indicate that plictran affects ATP synthesis and calcium ion transport in beef heart mitochondria.
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PMID:Effect of plictran on beef heart mitochondrial ATPases. 316 Dec 18

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